Any load would do or anything that has resistance. Which is pretty much everything you can hook up to a circuit. For example, lightbulb, buzzer, resistor etc.
If RT is the total resistance, then: 1/RT = (1/R1) + (1/R2)
[object Object]
there are several factors that affects power, yes, it has but it also depends on a specific kind of powerAnswerThere are no 'specific kinds' of power. Power is simply a 'rate' -the rate of doing work or of heat transfer. So power is expressed in terms of work divided by time:P = W/tWorkis measured in joules, and time in seconds -so a watt is a special name given to a joule per second.
The ohm (symbol: Ω) is the unit ofelectrical resistance in DC circuitselectrical resistance, reactance and impedance in AC circuits.It is named after Georg Ohm.An ohm is the standard measurement of the amount of resistance offered by an object to the flow of electric current. 1 volt of voltage applied across a 1 ohm resistance, will result in 1 ampere current flowing.
No induction does not generally require the objects to touch. Induction can mean that one object induces an electrical change in the other object from a distance
The color of the body does not affect its electrical resistance. Electrical resistance is determined by factors such as the material, dimensions, and temperature of the body. The color of an object is related to its appearance and does not have a direct impact on its electrical properties.
The factors that affect the speed of an object in free fall with air resistance are the object's mass, the surface area of the object, the density of the air, and the gravitational force acting on the object.
No, the density of an object does not directly affect its speed. The speed of an object is determined by factors such as the force applied to it and the resistance it encounters, not its density.
Inertia.
shape, size, and speed
wind resistance, and gravity, mass does not in any way contribute to how an object falls.
The factors that affect the amount of air resistance acting on an object are the speed of the object, the surface area exposed to the air, and the shape of the object. A faster object experiences more air resistance than a slower one, a larger surface area increases air resistance, and a streamlined shape reduces air resistance.
The shape of the object and the density of the gas that the object is falling through.
shape, size, and speed
The three factors that affect the amount of air resistance on an object are the object's speed (faster speed leads to higher air resistance), the object's size and shape (larger or less streamlined shapes experience higher air resistance), and the air density (higher air density increases air resistance).
The variables that affect air resistance include the speed of an object moving through the air, the surface area and shape of the object, the density of the air, and the viscosity of the air. Additionally, factors such as the altitude of the object and any obstacles in its path can also influence air resistance.
The factors that affect air resistance include the speed of the object (higher speed leads to greater air resistance), the surface area of the object (larger surface area experiences more air resistance), the shape of the object (streamlined shapes experience less air resistance), and the air density (higher air density increases resistance).